Method for Selective Encryption Within Documents

ABSTRACT

The present invention allows the user (author or creator) of a document to specify that certain portions of a document be selected for encryption while other portions of the document remain displayed as created. In addition, each encrypted section could have multiple encryption keys such that some viewers can review certain parts of the document while other viewers will not have that same access. The user could employ a standard word processing editor technique to highlight (or swipe) portions of a document that the user desires to be encrypted. The highlighted portion would then be tagged with a surrounding attribute indicating to the word processor that this highlighted portion of the document is to be encrypted. The highlighted sections would also have encryption keys associated with the highlighted and encrypted section. Any one of the encryption keys for that section would decrypt that section. With proper authorization, any encrypted portion of a document would be displayed as part of the document. Without proper authorization, the display of the document would only contain the unencrypted portions of the document.

FIELD OF THE INVENTION

The present invention provides a method and system for protecting andsecuring electronic documents and in particular to a method and systemfor selectively encrypting sections of a document with multipleencryption keys.

BACKGROUND OF THE INVENTION

Present day computer systems enable a user to create various types ofdocuments. These documents can contain text, graphics, images or acombination of each. Many times the creator of a document for variousreasons desires to keep secret the contents of a document. Often timesthe secrecy is for security reasons. In many businesses, various typesof documents that exist on computer systems contain confidentialinformation that can be related to the company's trade secrets andbusiness strategies. Most technology related companies maintain much oftheir research and product development information on computer systemsthat are protected by elaborate security systems. Governmental agenciesalso maintain much of their documented information on a confidentialbasis. Even individuals keep important records and other information inconfidential files.

Often, it is necessary to share documentation that contains confidentialinformation with persons. Presently, there are various ways to securethe documents and prevent unauthorized persons from viewing the contentsof a document. One way to protect documents is zip the document in asecured file that can be password protected. In this approach, whensomeone desires to access the document, that person must first submitthe proper password. If the password is correct, the document isretrieved and displayed for the requesting viewer. During transmissionof a document over a computing network such as the Internet, thedocument can be attached to an electronic message and transmitted withthe message. The receiver of the message can download the attachment andwith the proper password, retrieve the attached and secured document.

In other situations, a person must show that they have authority toaccess a computing network from which one can access certainconfidential information. These systems typically exist in financialsettings such as accessing bank or credit accounts.

A third technique used today to secure the contents of a document is toencrypt the document contents. In this approach, the document would beencrypted and stored by the document creator. To access the document,one would need to have the proper decryption key(s). In many cases, thedocuments would be transmitted over a computing network to a destinationlocation. The encryption would serve to secure the document during thetransmission of the document over the network. Again, at the destinationlocation, decryption would occur using the appropriate decryption keys.

One disadvantage is that the current document security systems are allor nothing propositions. With reference to document encryption, today,the only known means of encrypting certain elements of a document is toencrypt the entire document. In some instances encryption currently maybe accomplished only during a transmission (HTTPS). Regardless, theentire document is encrypted. The drawback to this approach is thatencryption imposes a serious performance impact and usability impact.HTTPS transmissions, for example, are in the neighborhood of 20%-30%slower than decrypted HTTP transmissions. Similarly, encrypting anentire document locally is costly, especially when only certain parts ofthe document (for example, personal user name, telephone, address, andcredit card numbers in an order) actually need the security thatencryption provides. Furthermore, the process of encrypting the documentis usually inconvenient, at best, requiring the user isolate it as aseparate file and then invoking a suitable tool for encrypting it.

As mentioned, currently, document security is an all or nothing task.There remains a need for a document security system in which a usercould select only specified portions of a document for concealment,while displaying other unconcealed portions of the document.

SUMMARY OF THE INVENTION

It is an objective of the present invention to provide a method forselectively concealing portions of a document.

It is a second objective of the present invention to provide a methodfor concealment of selective portions of a document through encryptiontechniques.

It is a third objective of the present invention is to provide a methodfor securing the confidential contents of a document through selectiveconcealment of the confidential contents.

It is a fourth objective of the present invention is to provide forselective decryption of encrypted sections of a document.

It is a fifth objective of the present invention to provide a method forencrypting multiple sections of a document, each section having theability to be decrypted or viewed with different sets of keys so thatdifferent sets of users are allowed to see different subsets of thedocument.

The present invention encrypts one or more copies of each selectedsection of the document, each copy encrypted with one of a set of one ormore different encryption keys, where the one or more sections of adocument are selected by the user (author or creator) for concealmentwhile other portions of the document remain displayed as created. Theuser would use a standard word processing editor technique to highlight(or swipe) portions of a document that the user desires to be concealed.The highlighted area would then be tagged with a surrounding attributeindicating to the word processor that highlighted area is to beconcealed. Specific encryption keys would be assigned to be used toencrypt each selected section. In accordance with the present invention,one section could have copies of the section, each copy encrypted with adifferent key. In one example, a first paragraph of the document mayhave three copies, each encrypted with different encryption keys (X, Y,and Z). A second paragraph may have two copies, each encrypted withdifferent encryption keys (Y and Z). A third paragraph may be encryptedwith encryption key (Z). In this example, someone having key Z couldaccess any paragraph in the document. Someone having encryption key Ycould access the second and third paragraphs. Someone with encryptionkey X could only access the third paragraph. In this method, when thedocument is displayed if the appropriate decryption keys are offered fora section, the encrypted areas are converted back to text and displayedas they were originally written. If the decryption keys are not offeredor are incorrect, the target areas are displayed as gibberish tomaintain placement of objects in the surrounding parts of the documentor a message or graphic is substituted indicating decryption failed. Inaddition, when a section is not decrypted, an alternative method ofdisplaying that section is to show a box for entering a decryption keyand a button to press to activate the decryption process.

DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts a pictorial representation of data processing system thatcan be used in the implementation of the present invention.

FIG. 2 is a flow diagram of the general method for implementing theconcepts of the present invention.

FIG. 3 is a pop-up menu of a word processor program containing theENCRYPT icon of the present invention.

FIG. 4 a is an illustration of a document containing multiple sectionsthat can be selected for separate and unique encryption, wherein aselected section can use multiple encryption keys.

FIG. 4 b is an illustration of the document with selected areas witheach area having a unique and separate encryption from the otherencrypted areas of the document.

FIG. 5 a is an illustration of an encryption key used to initiate thedecryption of encrypted material.

FIG. 5 b is an illustration of an additional encryption key that couldbe used to access a section of a document already having an encryptionkey.

FIG. 5 c is an illustration of a third encryption key used that can beused to access the same section of a document having encryption keysfrom FIGS. 5 a and 5 b.

FIG. 6 is an illustration of information used to authenticate therequest for access to encrypted information.

FIG. 7 is a flow diagram of the method of the present invention in whichthe encryption function is accomplished using multiple encryption keysfor selected sections of a document.

FIG. 8 a is a flow diagram of the method of the present invention inwhich multiple key encryption techniques are used to conceal selectedportions of a document for transmission across a computing network.

FIG. 8 b is a flow diagram of the method of the present invention inwhich decryption techniques are used to restore encrypted portions of adocument following transmission of the document across a computingnetwork.

FIG. 9 a is a flow diagram of an alternate method of the presentinvention in which known character strings are attached to an encrypteddocument for use during the decryption process to detect successfuldecryption.

FIG. 9 b is a flow diagram of the decryption techniques of the presentinvention using attached character strings to detect a successfuldecryption of a document.

DETAILED DESCRIPTION OF THE INVENTION

The present invention uses encryption techniques to conceal selectiveportions of a document. These encryption schemes transform data into aformat that is readable when decrypted using predetermined decryptionkeys. User authentication and Data Encryption schemes provide theability to authenticate, encrypt and decrypt certain information. In thepresent invention, the creator of a document can select a section of thedocument and have multiple encryption keys used on that documentsection. Anyone attempting to access that section of the document willneed at least one of the encryption keys for that section. U.S. patentapplication Ser. No. 10/692,142 by the same inventors and to the sameassignee explains much of the technology concerning the encryption ofdocuments. Those document encryption descriptions are incorporatedherein by reference.

With reference now to FIG. 1, there is depicted a pictorialrepresentation of computing device 100 which may be used inimplementation of the present invention. As may be seen, data processingsystem 100 includes processor 110 that preferably includes a graphicsprocessor, memory device and central processor (not shown). Coupled toprocessor 110 is video display 120 which may be implemented utilizingeither a color or monochromatic monitor, in a manner well known in theart. Also coupled to processor 110 is keyboard 130. Keyboard 130preferably comprises a standard computer keyboard, which is coupled tothe processor by means of cable 140. Also coupled to processor 110 is agraphical pointing device, such as mouse 150 (other examples of pointingdevices include a light pen and a roller ball). Mouse 150 is coupled toprocessor 110, in a manner well known in the art, via cable 160 As isshown, mouse 150 may include left button 170, and right button 180 eachof which may be depressed, or “clicked”, to provide command and controlsignals to data processing system 100 While the disclosed embodiment ofthe present invention utilizes a mouse, those skilled in the art willappreciate that any graphical pointing device such as a light pen ortouch sensitive screen may be utilized to implement the method andapparatus of the present invention. Upon reference to the foregoing,those skilled in the art will appreciate that data processing system 100may be implemented utilizing a personal computer.

Referring to FIG. 2, shown is a flow diagram of the general method forimplementing the concepts of the present invention. During the creationof a document, the creator/user may desire to encrypt certain portionsof the document for security reasons. In accordance with this invention,in step 200, the user can highlight a desired portion of the document.This process is the same as highlighting for other purposes such as toBOLD, UNDERLINE or ITALICIZE a portion of the document. In a typicalhighlighting process, the highlighting is accomplished by holding themouse button down and moving the cursor, (also called “dragging” or“swiping”), over the text that the user desires to highlight. As thecursor moves over text, all text covered by the cursor is indicated onthe screen. When the user releases the button, no further text ishighlighted with that particular cursor movement. The next step, 201,would be to initialize the encryption process of the present invention.As with other functions, the user could click ENCRYPT icon, shown inFIG. 3, to initiate encryption process. In this encryption process,after the user has highlighted the desired text, the user will thenselect the encryption key or keys for the encrypted information.Alternatively, the user may “right click” with the other mouse buttonafter highlighting a section, which would bring up a pop-up menucontaining an “ENCRYPT” option along with the typical right click menuitems such as CUT, PASTE, etc. As mentioned the user can click theENCRYPT icon or choose ENCRYPT from a pop-up menu. At this point, a newpop-up can appear to enable the user to choose one or more encryptionkeys from a preset list or to add in a new key that will be added to thelist for use in encrypting sections. Another key selection method couldbe for the word processor or other tool being used to prompt the userfor the key or keys that will be used to encrypt the highlighted portionof the document. One additional option could be to specify any ofseveral keys to be used by key set name rather than the actual keyvalues (presumably to target different sets of ultimate readers) so thatwhen a portion of the document is highlighted, a reader need only chooseone of the provided sets of keys instead of typing the actual key valueseach time. When there is a preset list of keys, one would not show theactual key, but rather a symbolic name for the keys or sets of keys.This approach provides some security against person looking over theshoulder of the reader and observing the key. In this method, the readerwould enter a name for the key initially and this name would bedisplayed for each pre-entered key. Still another approach would be toalways show the last 10 or so keys entered (by name) similar to oneopens a new document, where the user has the option of choosing one ofseveral recently edited documents.

After receiving the encryption keys during this encryption process, step202, copies of the highlighted portion of the document would beencrypted each using a different selected key using the encryptionroutines available for that system. As a result of the encryptionprocess, the plaintext version of the section would be removed and oneor more encrypted versions of the section would be saved, each havingbeen encrypted with different keys. Any of the selected keys used duringencryption would be able to decrypt the encrypted section. Following theencryption process, in step 203, the document is displayed containingencrypted portions shown as gibberish, blanked out text or other formator indication. In one alternative approach, the encrypted section maynot be shown as gibberish to the author but rather optionally modifiedin some other way to indicate that the section is encrypted. Even thoughthe actual text may not be shown, information can be kept, giving thelinear length of the text so that the document formatting can beessentially retained even when the text is obscured. For example theencrypted section might have fine diagonal red lines drawn under theblanked out text. Also, when a reader decrypts a section, it might notturn into simple black on white text, but again may be displayed in aunique manner to show that it was a section that was encrypted and warnthe reader that this section should be treated carefully. A situationwhere this precaution may be needed is when someone is hovering over thereader's shoulder trying to also read the screen.

Referring to FIG. 3, shown is an illustration of a pop-up menu 300containing icons for various word processing functions. In this menu isan ENCRYPT icon 301. Instead of including the ENCRYPTION icon 301 in apop-up menu, another option is to include the encryption icon as one ofthe general function icons continually displayed during an editingsession similar to the BOLD and UNDERLINE icons. During an editingsession, if a user may want to encrypt the sections of a document, theuser can highlight that paragraph and click the ENCRYPT icon 301. Theencryption process will then encrypt the highlighted contents accordingthe present invention.

FIG. 4 a is an illustration of a document containing multiple sectionsthat can be selected for separate and unique encryption. As shown, thisdocument contains four paragraphs. In this example, a user can choose todesignate three of the paragraphs for encryption. The user can choose toleave paragraph 400 in the initially created form for anyone to read.However, a user may only want certain people to see certain information.With the features of the present invention, a user can create onedocument with some general information for everyone and some specificinformation for different people. Paragraphs 401, 402 and 403 could bedesignated for different groups of viewers. As a result, each paragraphcould be encrypted with the same or with unique encryption keys. Forexample, paragraph 401 may have been encrypted using three encryptionkeys (X, Y, and Z). Paragraph 402 may have been encrypted using twoencryption keys (Y and Z). Paragraph 403 may have been encrypted usingone encryption key (Z). In this example, someone having key Z couldaccess any paragraph in the document. Someone having encryption key Ycould access paragraphs 401 and 402. Someone with encryption key X couldonly access paragraph 401.

FIG. 4 b is an illustration of the document having selected areas witheach area having a unique and separate encryption from the otherencrypted areas of the document. As shown, paragraph 400 did not changefrom the original paragraph. Paragraphs 401, 402 and 403 were eachencrypted and the resulting information appears as random letters in thedocument. The appropriate people would know the correct keys to apply todecrypt the information for which they have authority to read.

FIGS. 5 a, 5 b, and 5 c 6 show examples of encryption keys 500, 501 and502. These keys contain 15 alphanumeric bytes. It should be noted that a15-byte key is just one example of a key size that can be used in theimplementation of the present invention. A user seeking access to anencrypted section of the document would need to supply an appropriatekey when trying to gain access to the information in an encryptedsection. As previously described, one key could be for all encryptedsections of a document or for a specific segment of the document. FIG. 6shows an embodiment, wherein the person seeking to gain access mustsupply along with an appropriate key 600, their name 610, the employeenumber 620 and the section of the document 630 for which the requesterseeks access. The authentication scheme may require only the encryptionkey and optionally, one of the other two pieces of information.

Referring to FIG. 7, step 701 of the method of the present inventiondetects a command to encrypt a portion of a document. The idealapplication for the present invention is when the desire is to encryptmultiple sections of a document. At this point, the section of thedocument to be encrypted is highlighted on the screen and viewed by theuser. In step 702, the user can click an encryption icon 25 or anencryption menu item. Clicking the encryption icon will activate theencryption routine. Within this routine, step 703 will tag the sectionsand designate them for encryption. This tagging may take a form suitablefor the document format used. For example, if the document were storedin an XML type of format, the section might be enclosed with markup tagssuch as “<encryptedsection>” and “</encryptedsection>. The enclosedplain text data would be replaced with the encrypted data created instep 704. Alternatively, the encrypted data might be stored at the endof the file or other location by convention, with the tagged areapointing to this data. Step 704 will perform the encryption of thehighlighted information using encryption techniques such as thepreviously described techniques. In this step, copies of each sectionwill be each encrypted with a different one of the multiple encryptionkeys as determined by the document creator. Once the document creatorselects the encryption keys for each section, only those encryption keyswill be able to access that section of the document.

At the completion of the encryption process, the user can continue toedit the document and encrypt other portions of the document as the userdesires. In step 705, the document will be stored in a file on somestorage media or transmitted over some communication means to some otherlocation for storage or viewing in accordance with the commands of theuser.

When there is an attempt to access an encrypted portion of the document,step 45 detects the attempt to access that encrypted portion. In step707, there is a determination of whether the user attempting the accesshas proper authority to view that portion of the document. In thisdetermination, the requestor must provide a correct key or multiple keysto activate a decryption of the encrypted contents that the requestorwants to access. If the requester has the correct key, the decryption ofthe encrypted contents occurs. The decryption process attempts todecrypt the section using each of the provided decryption keys and ifone is successful, the method moves to step 708, which displays thecontents of the encrypted section as part of the document. If in step707, there is a determination that the one requesting access does nothave authority to view that section of the document (none of theprovided decryption keys successfully decrypted the section), the methodmoves to step 709 where the access attempt is rejected and only theunencrypted portions of the document are displayed to the requester.After the completion of step 708, if there are other sections of thedocument for which one desires access, step 710 will enable the onerequesting access to select another section of the document to decrypt.The process would return to stop 707 for the next section.Alternatively, step 710 may be configured to automatically attempt todecrypt all of the encrypted sections in the document using the keysprovided by the reader.

FIGS. 8 a and 8 b illustrate an implementation of the present inventionfor transmission of a document with encrypted contents across acomputing network. In FIG. 8 a, shown is a flow diagram of the method ofthe present invention in which encryption techniques are used toencrypted portions of a document for transmission across a computingnetwork. In this method, steps 801, 802, 803, 804, 805 and 806 are thesame as steps 701, 702, 703, 704, 705 and 706 in FIG. 7 respectively. Instep 807, there is a transmission over a computing network of thedocument containing sections that are encrypted using encryptiontechniques.

In FIG. 8 b, a transmitted message is received at a destination locationin step 808. When there is an attempt to open the document, step 809detects a request to access an encrypted section of the document. Instep 810, there is a determination of whether the requester has theproper decryption keys for that encrypted portion of the document. Step811 will perform a decryption of the encrypted contents. If thedecryption process is successful, the method moves to step 812, whichdisplays the contents of the previously encrypted portion of thedocument. If in step 810, there is a determination that the requesterdoes not have the proper decryption keys, the method moves to step 813where the access requested is rejected. Step 814 will give the requesteran opportunity to decrypt other sections of the document as previouslydescribed.

As the document is displayed, as any encrypted section is encountered,the displaying software would try to decrypt the encrypted section witheach of the previously entered encryption keys until one successfullydecrypts the section. If none of them succeeds in decrypting thesection, the user would be prompted to add yet another decryption key tohis list (that would presumably work for this section.) The way thesystem could tell whether a decryption was successful or not would be toinclude a known string to every section to be encrypted. Then, ondecryption, if the added known string does not appear in the decryptedtext, then the decryption would be considered a failure, which wouldthen cause the system to try a different key from the list entered bythe user. This known string would be removed from the text and therebynot be displayed. The encryption keys should be of sufficient length andmethods used for encryption be sufficiently strong to avoid anypossibility of using these multiply encrypted copies to discover theencoded text or any of the keys by an outside party. Also, if one partyknows the text because he has one of the keys, the techniques should notmake it possible to permit that user to discover any of the other keys.One way to help prevent this is to have a different random stringappended to each text copy before it is encrypted. This random string isdiscarded after decryption. Alternatively, any of the encrypted sectionsmay contain non-text data such as image data. This data can be encryptedand decrypted with the same methods as plain text and as such should notpresent a limitation to the applicability of this invention.

FIGS. 9 a and 9 b illustrate the encryption techniques involve usingknown character strings to detect successful decryption. As shown inFIG. 9 a, in step 901, the user or document creator can select a sectionof a document for encryption. Once the document section is selected,step 902 can add a string of known characters to the document text. Thisknown character string can be placed at a designated location in thedocument, such as the beginning or end of the section. The known textwill be used upon decryption to test if the decryption was successful.Optionally, an additional string of random text may be added to the copyof the section to make it more difficult to crack the encryption scheme.Any such random text would be discarded upon decryption. The next step,903, encrypts the document containing the known character string. Atthis point, in step 904, if the user specified more than one key,another clear text copy of the section is taken and this new copy isprocessed with the additional key as indicated starting with step 902.As previously described, this entire document can have multiple sectionsthat are encrypted with various keys for selected viewers. Someone maybe able to view one section, while another person may be able threesections. Each section could have been encrypted using a differentencryption key.

If the user specified more than one encryption key for the selectedsection, the process returns to step 902. The system would then encryptanother copy of the plain text section with the next key. Once thesystem has used all of the keys specified for the section to encryptcopies of that section, then the user has the option to select anothersection of the document for encryption under step 905. If the userdesires to encrypt another section of the document, the process returnsto step 901. If the user has completed the selection of documentsections, step 906 removes all of the plain text versions of theencrypted sections from the document. Step 907 saves a copy of eachencrypted section of the document, either in-line where the originalplain text was positioned or at some other point in the file accordingto a convention established for the document type format. A copy of eachencrypted section is saved for each key used in the encryption process.

Referring to FIG. 9 b, shown is a flow diagram of the steps involved inthe decryption of the document using the known character string toverify the success of the decryption. In step 910, one of the encryptedsections of the document is selected for decryption. For purposes ofthis description, section A is the section for which decryption isdesired. Step 911 will select a key from the list of supplied keys touse in an attempt to decrypt this section A. Step 912 determines whetherthe decryption process was successful. Attempting to read the knowncharacter string does this determination. If the string appears in thedecrypted copy, then the key was correct and the decryption wassuccessful. If the string does not appear in the decrypted copy, thenthe decryption was not successful. At this point, step 913 determineswhether the user has additional keys to use in an attempt to decryptthat section A of the document. If the user has additional keys, theprocess returns to step 911 and repeats steps 911 and 912. If in step913, the user does not have additional keys and the decryption attemptwas not successful, then that section of the document will not bedecrypted for that user in step 914. Referring to step 912, if thedecryption was successful, the process moves to step 915 where both theknown character string and the random character string (if one wasadded) are removed from the text and the text is displayed for the userin step 916.

Furthermore, if a section of the document is supposed to be decryptablewith more than one key, then multiple copies of that section would beincluded in the document file, each copy encrypted with a different key.There would of course be some tag information that indicated that theparticular section is duplicated and encrypted with different keys. Thiswould be used to have some parts of the document encrypted fordepartment A viewing, for example, and other non-disjoint parts forviewing by department B. Additionally, tag information may have beenadded to indicate the text space consumed by the decrypted plain text.This would have been used to more properly format an unencrypted portionso that surrounding information is not displaced from its original pageor position in the document.

It is important to note that while the present invention has beendescribed in the context of a fully functioning data processing system,those skilled in the art will appreciate that the processes of thepresent invention are capable of being distributed in the form ofinstructions in a computer readable medium and a variety of other forms,regardless of the particular type of medium used to carry out thedistribution. Examples of computer readable media include media such asEPROM, ROM, tape, paper, floppy disc, hard disk drive, RAM, and CD-ROMsand transmission-type of media, such as digital and analogcommunications links.

1. (canceled)
 2. (canceled)
 3. (canceled)
 4. (canceled)
 5. (canceled) 6.(canceled)
 7. (canceled)
 8. (canceled)
 9. (canceled)
 10. (canceled) 11.(canceled)
 12. (canceled)
 13. (canceled)
 14. (canceled)
 15. (canceled)16. (canceled)
 17. (canceled)
 18. (canceled)
 19. (canceled) 20.(canceled)
 21. (canceled)
 22. (canceled)
 23. (canceled)
 24. (canceled)25. (canceled)
 26. (canceled)
 27. (canceled)
 28. A method for selectiveencryption within a document comprising the steps of: detecting a firstsection of a document selected and marked for encryption; detecting atleast one additional section of the document selected and marked forencryption; and encrypting at least one of said detected documentsection copies with at least two different encryption keys.
 29. Themethod as described in claim 28 further comprising after said encryptingstep, the step of displaying the document with the selected portions ofthe document encrypted.
 30. The method as described in claim 29 whereinthe encrypted portions are displayed in a random unintelligible formatuntil a proper decryption key is entered.
 31. The method as described inclaim 29 further comprising after said displaying step, the step ofrepeating said detecting and encrypting steps for another selectiveportion of the document.
 32. The method as described in claim 29 furthercomprising after said displaying step, the step of storing the documentwith the selected portions encrypted.
 33. The method as described inclaim 32 further comprising after said storing step, the steps of:detecting an attempt to access an encrypted portion of the document; anddetermining whether the accessor is authorized to access the encryptedportion of the document.
 34. The method as described in claim 33 whereinsaid authorization-determining step further comprises matching theencryption supplied by the accessor with at least one of the encryptionkeys for the document section for which access is attempted.
 35. Themethod as described in claim 34 further comprising the step ofdisplaying the document with any previously encrypted portions decryptedwhen the determination is that the accessor has the authority to accessthe encrypted portion of the document.
 36. The method as described inclaim 29 further comprising after said displaying step, the step oftransmitting the document across a computing network to an identifieddestination.
 37. The method as described in claim 28 wherein eachencrypted section of the document has one encryption key that is used inmore than one the encryption sections of the document.
 38. The method asdescribed in claim 28 wherein said detecting step further comprisesidentifying a selected portion of a document that is marked by swiping aperipheral apparatus that interfaces with a computing device over theportion of the document for which encryption is desired.
 39. A methodfor selective encryption within a document comprising the steps of:detecting a first section of a document selected and marked forencryption; detecting at least one additional section of the documentselected and marked for encryption; adding a character string to thetext of a section of the document selected for encryption; andencrypting a selected section of the document with at least twodifferent encryption keys.
 40. The method as described in claim 39further comprising the step of encrypting at least one of other sectionof the document with at least one encryption key.